File size: 8,396 Bytes
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from typing import Callable, Optional, Tuple
from .._crypto import AEAD, CryptoError, HeaderProtection
from ..tls import CipherSuite, cipher_suite_hash, hkdf_expand_label, hkdf_extract
from .packet import (
QuicProtocolVersion,
decode_packet_number,
is_long_header,
)
CIPHER_SUITES = {
CipherSuite.AES_128_GCM_SHA256: (b"aes-128-ecb", b"aes-128-gcm"),
CipherSuite.AES_256_GCM_SHA384: (b"aes-256-ecb", b"aes-256-gcm"),
CipherSuite.CHACHA20_POLY1305_SHA256: (b"chacha20", b"chacha20-poly1305"),
}
INITIAL_CIPHER_SUITE = CipherSuite.AES_128_GCM_SHA256
INITIAL_SALT_VERSION_1 = binascii.unhexlify("38762cf7f55934b34d179ae6a4c80cadccbb7f0a")
INITIAL_SALT_VERSION_2 = binascii.unhexlify("0dede3def700a6db819381be6e269dcbf9bd2ed9")
SAMPLE_SIZE = 16
Callback = Callable[[str], None]
def NoCallback(trigger: str) -> None:
pass
class KeyUnavailableError(CryptoError):
pass
def derive_key_iv_hp(
*, cipher_suite: CipherSuite, secret: bytes, version: int
) -> Tuple[bytes, bytes, bytes]:
algorithm = cipher_suite_hash(cipher_suite)
if cipher_suite in [
CipherSuite.AES_256_GCM_SHA384,
CipherSuite.CHACHA20_POLY1305_SHA256,
]:
key_size = 32
else:
key_size = 16
if version == QuicProtocolVersion.VERSION_2:
return (
hkdf_expand_label(algorithm, secret, b"quicv2 key", b"", key_size),
hkdf_expand_label(algorithm, secret, b"quicv2 iv", b"", 12),
hkdf_expand_label(algorithm, secret, b"quicv2 hp", b"", key_size),
)
else:
return (
hkdf_expand_label(algorithm, secret, b"quic key", b"", key_size),
hkdf_expand_label(algorithm, secret, b"quic iv", b"", 12),
hkdf_expand_label(algorithm, secret, b"quic hp", b"", key_size),
)
class CryptoContext:
def __init__(
self,
key_phase: int = 0,
setup_cb: Callback = NoCallback,
teardown_cb: Callback = NoCallback,
) -> None:
self.aead: Optional[AEAD] = None
self.cipher_suite: Optional[CipherSuite] = None
self.hp: Optional[HeaderProtection] = None
self.key_phase = key_phase
self.secret: Optional[bytes] = None
self.version: Optional[int] = None
self._setup_cb = setup_cb
self._teardown_cb = teardown_cb
def decrypt_packet(
self, packet: bytes, encrypted_offset: int, expected_packet_number: int
) -> Tuple[bytes, bytes, int, bool]:
if self.aead is None:
raise KeyUnavailableError("Decryption key is not available")
# header protection
plain_header, packet_number = self.hp.remove(packet, encrypted_offset)
first_byte = plain_header[0]
# packet number
pn_length = (first_byte & 0x03) + 1
packet_number = decode_packet_number(
packet_number, pn_length * 8, expected_packet_number
)
# detect key phase change
crypto = self
if not is_long_header(first_byte):
key_phase = (first_byte & 4) >> 2
if key_phase != self.key_phase:
crypto = next_key_phase(self)
# payload protection
payload = crypto.aead.decrypt(
packet[len(plain_header) :], plain_header, packet_number
)
return plain_header, payload, packet_number, crypto != self
def encrypt_packet(
self, plain_header: bytes, plain_payload: bytes, packet_number: int
) -> bytes:
assert self.is_valid(), "Encryption key is not available"
# payload protection
protected_payload = self.aead.encrypt(
plain_payload, plain_header, packet_number
)
# header protection
return self.hp.apply(plain_header, protected_payload)
def is_valid(self) -> bool:
return self.aead is not None
def setup(self, *, cipher_suite: CipherSuite, secret: bytes, version: int) -> None:
hp_cipher_name, aead_cipher_name = CIPHER_SUITES[cipher_suite]
key, iv, hp = derive_key_iv_hp(
cipher_suite=cipher_suite,
secret=secret,
version=version,
)
self.aead = AEAD(aead_cipher_name, key, iv)
self.cipher_suite = cipher_suite
self.hp = HeaderProtection(hp_cipher_name, hp)
self.secret = secret
self.version = version
# trigger callback
self._setup_cb("tls")
def teardown(self) -> None:
self.aead = None
self.cipher_suite = None
self.hp = None
self.secret = None
# trigger callback
self._teardown_cb("tls")
def apply_key_phase(self: CryptoContext, crypto: CryptoContext, trigger: str) -> None:
self.aead = crypto.aead
self.key_phase = crypto.key_phase
self.secret = crypto.secret
# trigger callback
self._setup_cb(trigger)
def next_key_phase(self: CryptoContext) -> CryptoContext:
algorithm = cipher_suite_hash(self.cipher_suite)
crypto = CryptoContext(key_phase=int(not self.key_phase))
crypto.setup(
cipher_suite=self.cipher_suite,
secret=hkdf_expand_label(
algorithm, self.secret, b"quic ku", b"", algorithm.digest_size
),
version=self.version,
)
return crypto
class CryptoPair:
def __init__(
self,
recv_setup_cb: Callback = NoCallback,
recv_teardown_cb: Callback = NoCallback,
send_setup_cb: Callback = NoCallback,
send_teardown_cb: Callback = NoCallback,
) -> None:
self.aead_tag_size = 16
self.recv = CryptoContext(setup_cb=recv_setup_cb, teardown_cb=recv_teardown_cb)
self.send = CryptoContext(setup_cb=send_setup_cb, teardown_cb=send_teardown_cb)
self._update_key_requested = False
def decrypt_packet(
self, packet: bytes, encrypted_offset: int, expected_packet_number: int
) -> Tuple[bytes, bytes, int]:
plain_header, payload, packet_number, update_key = self.recv.decrypt_packet(
packet, encrypted_offset, expected_packet_number
)
if update_key:
self._update_key("remote_update")
return plain_header, payload, packet_number
def encrypt_packet(
self, plain_header: bytes, plain_payload: bytes, packet_number: int
) -> bytes:
if self._update_key_requested:
self._update_key("local_update")
return self.send.encrypt_packet(plain_header, plain_payload, packet_number)
def setup_initial(self, cid: bytes, is_client: bool, version: int) -> None:
if is_client:
recv_label, send_label = b"server in", b"client in"
else:
recv_label, send_label = b"client in", b"server in"
if version == QuicProtocolVersion.VERSION_2:
initial_salt = INITIAL_SALT_VERSION_2
else:
initial_salt = INITIAL_SALT_VERSION_1
algorithm = cipher_suite_hash(INITIAL_CIPHER_SUITE)
initial_secret = hkdf_extract(algorithm, initial_salt, cid)
self.recv.setup(
cipher_suite=INITIAL_CIPHER_SUITE,
secret=hkdf_expand_label(
algorithm, initial_secret, recv_label, b"", algorithm.digest_size
),
version=version,
)
self.send.setup(
cipher_suite=INITIAL_CIPHER_SUITE,
secret=hkdf_expand_label(
algorithm, initial_secret, send_label, b"", algorithm.digest_size
),
version=version,
)
def teardown(self) -> None:
self.recv.teardown()
self.send.teardown()
def update_key(self) -> None:
self._update_key_requested = True
@property
def key_phase(self) -> int:
if self._update_key_requested:
return int(not self.recv.key_phase)
else:
return self.recv.key_phase
def _update_key(self, trigger: str) -> None:
apply_key_phase(self.recv, next_key_phase(self.recv), trigger=trigger)
apply_key_phase(self.send, next_key_phase(self.send), trigger=trigger)
self._update_key_requested = False
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